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Elbow joint variability for different hand positions of the round off in gymnastics

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posted on 2022-05-03, 16:03 authored by Roman Farana, Gareth Irwin, Daniel Jandacka, Jaroslav Uchytil, David R. Mullineaux

 The aim of the present study was to conduct within-gymnast analyses of biological movement variability in impact forces, elbow joint kinematics and kinetics of expert gymnasts in the execution of the round-off with different hand positions. Six international level female gymnasts performed 10 trials of the round-off from a hurdle step to a back-handspring using two hand potions: parallel and T-shape. Two force plates were used to determine ground reaction forces. Eight infrared cameras were employed to collect the kinematic data automatically. Within gymnast variability was calculated using biological coefficient of variation (BCV) discretely for ground reaction force, kinematic and kinetic measures. Variability of the continuous data was quantified using coefficient of multiple correlations (CMC). Group BCV and CMC were calculated and T-test with effect size statistics determined differences between the variability of the two techniques examined in this study. The major observation was a higher level of biological variability in the elbow joint abduction angle and adduction moment of force in the T-shaped hand position. This finding may lead to a reduced repetitive abduction stress and thus protect the elbow joint from overload. Knowledge of the differences in biological variability can inform clinicians and practitioners with effective skill selection. 

History

Published in

Human Movement Science

Publisher

Elsevier

Version

  • AM (Accepted Manuscript)

Citation

Farana, R., Irwin, G., Jandacka, D., Uchytil, J. and Mullineaux, D.R. (2015) 'Elbow joint variability for different hand positions of the round off in gymnastics', Human Movement Science, 39, pp.88-100

Print ISSN

0167-9457

Electronic ISSN

1872-7646

Cardiff Met Affiliation

  • Cardiff School of Sport and Health Sciences

Cardiff Met Authors

Gareth Irwin

Cardiff Met Research Centre/Group

  • High Performance

Copyright Holder

  • © The Publisher

Language

  • en

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